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Literature DB >> 28480592

Slow-Myofiber Commitment by Semaphorin 3A Secreted from Myogenic Stem Cells.

Ryuichi Tatsumi¹, Takahiro Suzuki^1,2,3, Mai-Khoi Q Do¹, Yuki Ohya¹, Judy E Anderson⁴, Ayumi Shibata¹, Mai Kawaguchi¹, Shunpei Ohya¹, Hideaki Ohtsubo¹, Wataru Mizunoya¹, Shoko Sawano¹, Yusuke Komiya¹, Riho Ichitsubo¹, Koichi Ojima⁵, Shin-Ichiro Nishimatsu², Tsutomu Nohno², Yutaka Ohsawa⁶, Yoshihide Sunada⁶, Mako Nakamura⁷, Mitsuhiro Furuse¹, Yoshihide Ikeuchi¹, Takanori Nishimura³, Takeshi Yagi⁸, Ronald E Allen⁹.

Abstract

Recently, we found that resident myogenic stem satellite cells upregulate a multi-functional secreted protein, semaphorin 3A (Sema3A), exclusively at the early-differentiation phase in response to muscle injury; however, its physiological significance is still unknown. Here we show that Sema3A impacts slow-twitch fiber generation through a signaling pathway, cell-membrane receptor (neuropilin2-plexinA3) → myogenin-myocyte enhancer factor 2D → slow myosin heavy chain. This novel axis was found by small interfering RNA-transfection experiments in myoblast cultures, which also revealed an additional element that Sema3A-neuropilin1/plexinA1, A2 may enhance slow-fiber formation by activating signals that inhibit fast-myosin expression. Importantly, satellite cell-specific Sema3A conditional-knockout adult mice (Pax7CreERT2 -Sema3Afl °x activated by tamoxifen-i.p. injection) provided direct in vivo evidence for the Sema3A-driven program, by showing that slow-fiber generation and muscle endurance were diminished after repair from cardiotoxin-injury of gastrocnemius muscle. Overall, the findings highlight an active role for satellite cell-secreted Sema3A ligand as a key "commitment factor" for the slow-fiber population during muscle regeneration. Results extend our understanding of the myogenic stem-cell strategy that regulates fiber-type differentiation and is responsible for skeletal muscle contractility, energy metabolism, fatigue resistance, and its susceptibility to aging and disease. Stem Cells 2017;35:1815-1834.

Entities: Chemical Disease Gene Species

Keywords: Muscle endurance; Myogenin; Regeneration; Resident myogenic stem satellite cells; Semaphorin 3A; Slow-twitch myofiber

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Year: 2017 PMID： 28480592 DOI： 10.1002/stem.2639

Source DB: PubMed Journal: Stem Cells ISSN： 1066-5099 Impact factor: 6.277

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